Bio-inspired electronics: Soft, biohybrid, and “living” neural interfaces DOI Creative Commons
Dimitris Boufidis, Raghav Garg,

Evangelos A. Angelopoulos

et al.

Nature Communications, Journal Year: 2025, Volume and Issue: 16(1)

Published: Feb. 21, 2025

Neural interface technologies are increasingly evolving towards bio-inspired approaches to enhance integration and long-term functionality. Recent strategies merge soft materials with tissue engineering realize biologically-active and/or cell-containing living layers at the tissue-device that enable seamless biointegration novel cell-mediated therapeutic opportunities. This review maps field of electronics discusses key recent developments in tissue-like regenerative bioelectronics, from biomaterials surface-functionalized bioactive coatings 'biohybrid' 'all-living' interfaces. We define contextualize terminology this emerging highlight how biological components can bridge gap clinical translation.

Language: Английский

Bio-inspired electronics: Soft, biohybrid, and “living” neural interfaces DOI Creative Commons
Dimitris Boufidis, Raghav Garg,

Evangelos A. Angelopoulos

et al.

Nature Communications, Journal Year: 2025, Volume and Issue: 16(1)

Published: Feb. 21, 2025

Neural interface technologies are increasingly evolving towards bio-inspired approaches to enhance integration and long-term functionality. Recent strategies merge soft materials with tissue engineering realize biologically-active and/or cell-containing living layers at the tissue-device that enable seamless biointegration novel cell-mediated therapeutic opportunities. This review maps field of electronics discusses key recent developments in tissue-like regenerative bioelectronics, from biomaterials surface-functionalized bioactive coatings 'biohybrid' 'all-living' interfaces. We define contextualize terminology this emerging highlight how biological components can bridge gap clinical translation.

Language: Английский

Citations

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